// Copyright 2014 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. // // Stores information about the user's brower and system configuration. // The system configuration fields are recorded once per client session. syntax = "proto2"; option optimize_for = LITE_RUNTIME; option java_outer_classname = "SystemProfileProtos"; option java_package = "org.chromium.components.metrics"; package metrics; // Next tag: 21 message SystemProfileProto { // The time when the client was compiled/linked, in seconds since the epoch. optional int64 build_timestamp = 1; // A version number string for the application. // Most commonly this is the browser version number found in a user agent // string, and is typically a 4-tuple of numbers separated by periods. In // cases where the user agent version might be ambiguous (example: Linux 64- // bit build, rather than 32-bit build, or a Windows version used in some // special context, such as ChromeFrame running in IE), then this may include // some additional postfix to provide clarification not available in the UA // string. // // An example of a browser version 4-tuple is "5.0.322.0". Currently used // postfixes are: // // "-64": a 64-bit build // "-F": Chrome is running under control of ChromeFrame // "-devel": this is not an official build of Chrome // // A full version number string could look similar to: // "5.0.322.0-F-devel". // // This value, when available, is more trustworthy than the UA string // associated with the request; and including the postfix, may be more // specific. optional string app_version = 2; // The brand code or distribution tag assigned to a partner, if available. // Brand codes are only available on Windows. Not every Windows install // though will have a brand code. optional string brand_code = 12; // The possible channels for an installation, from least to most stable. enum Channel { CHANNEL_UNKNOWN = 0; // Unknown channel -- perhaps an unofficial build? CHANNEL_CANARY = 1; CHANNEL_DEV = 2; CHANNEL_BETA = 3; CHANNEL_STABLE = 4; } optional Channel channel = 10; // True if Chrome build is ASan-instrumented. optional bool is_asan_build = 20 [default = false]; // The date the user enabled UMA, in seconds since the epoch. // If the user has toggled the UMA enabled state multiple times, this will // be the most recent date on which UMA was enabled. // For privacy, this is rounded to the nearest hour. optional int64 uma_enabled_date = 3; // The time when the client was installed, in seconds since the epoch. // For privacy, this is rounded to the nearest hour. optional int64 install_date = 16; // The user's selected application locale, i.e. the user interface language. // The locale includes a language code and, possibly, also a country code, // e.g. "en-US". optional string application_locale = 4; // Information on the user's operating system. message OS { // The user's operating system. This should be one of: // - Android // - Windows NT // - Linux (includes ChromeOS) // - iPhone OS // - Mac OS X optional string name = 1; // The version of the OS. The meaning of this field is OS-dependent. optional string version = 2; // The fingerprint of the build. This field is used only on Android. optional string fingerprint = 3; // Whether the version of iOS appears to be "jailbroken". This field is // used only on iOS. Chrome for iOS detects whether device contains a // DynamicLibraries/ directory. It's a necessary but insufficient indicator // of whether the operating system has been jailbroken. optional bool is_jailbroken = 4; } optional OS os = 5; // Next tag for Hardware: 18 // Information on the user's hardware. message Hardware { // The CPU architecture (x86, PowerPC, x86_64, ...) optional string cpu_architecture = 1; // The amount of RAM present on the system, in megabytes. optional int64 system_ram_mb = 2; // The base memory address that chrome.dll was loaded at. // (Logged only on Windows.) optional int64 dll_base = 3; // The hardware_class describes the current machine model, e.g. "MacPro1,1" // on Mac, or "Nexus 5" on Android. Only implemented on OS X, Android, and // Chrome OS. // // For Chrome OS, the device hardware class ID is a unique string associated // with each Chrome OS device product revision generally assigned at // hardware qualification time. The hardware class effectively identifies // the configured system components such as CPU, WiFi adapter, etc. // // An example of such a hardware class is "IEC MARIO PONY 6101". An // internal database associates this hardware class with the qualified // device specifications including OEM information, schematics, hardware // qualification reports, test device tags, etc. optional string hardware_class = 4; // The number of physical screens. optional int32 screen_count = 5; // The screen dimensions of the primary screen, in pixels. optional int32 primary_screen_width = 6; optional int32 primary_screen_height = 7; // The device scale factor of the primary screen. optional float primary_screen_scale_factor = 12; // Max DPI for any attached screen. (Windows only) optional float max_dpi_x = 9; optional float max_dpi_y = 10; // Information on the CPU obtained by CPUID. message CPU { // A 12 character string naming the vendor, e.g. "GeniuneIntel". optional string vendor_name = 1; // The signature reported by CPUID (from EAX). optional uint32 signature = 2; // Number of logical processors/cores on the current machine. optional uint32 num_cores = 3; } optional CPU cpu = 13; // Information on the GPU message Graphics { // The GPU manufacturer's vendor id. optional uint32 vendor_id = 1; // The GPU manufacturer's device id for the chip set. optional uint32 device_id = 2; // The driver version on the GPU. optional string driver_version = 3; // The driver date on the GPU. optional string driver_date = 4; // The GL_VENDOR string. An example of a gl_vendor string is // "Imagination Technologies". "" if we are not using OpenGL. optional string gl_vendor = 6; // The GL_RENDERER string. An example of a gl_renderer string is // "PowerVR SGX 540". "" if we are not using OpenGL. optional string gl_renderer = 7; } optional Graphics gpu = 8; // Information about Bluetooth devices paired with the system. message Bluetooth { // Whether Bluetooth is present on this system. optional bool is_present = 1; // Whether Bluetooth is enabled on this system. optional bool is_enabled = 2; // Describes a paired device. message PairedDevice { // Assigned class of the device. This is a bitfield according to the // Bluetooth specification available at the following URL: // https://www.bluetooth.org/en-us/specification/assigned-numbers-overview/baseband optional uint32 bluetooth_class = 1; // Decoded device type. enum Type { DEVICE_UNKNOWN = 0; DEVICE_COMPUTER = 1; DEVICE_PHONE = 2; DEVICE_MODEM = 3; DEVICE_AUDIO = 4; DEVICE_CAR_AUDIO = 5; DEVICE_VIDEO = 6; DEVICE_PERIPHERAL = 7; DEVICE_JOYSTICK = 8; DEVICE_GAMEPAD = 9; DEVICE_KEYBOARD = 10; DEVICE_MOUSE = 11; DEVICE_TABLET = 12; DEVICE_KEYBOARD_MOUSE_COMBO = 13; } optional Type type = 2; // Vendor prefix of the Bluetooth address, these are OUI registered by // the IEEE and are encoded with the first byte in bits 16-23, the // second byte in bits 8-15 and the third byte in bits 0-7. // // ie. Google's OUI (00:1A:11) is encoded as 0x00001A11 optional uint32 vendor_prefix = 4; // The Vendor ID of a device, returned in vendor_id below, can be // either allocated by the Bluetooth SIG or USB IF, providing two // completely overlapping namespaces for identifiers. // // This field should be read along with vendor_id to correctly // identify the vendor. For example Google is identified by either // vendor_id_source = VENDOR_ID_BLUETOOTH, vendor_id = 0x00E0 or // vendor_id_source = VENDOR_ID_USB, vendor_id = 0x18D1. // // If the device does not support the Device ID specification the // unknown value will be set. enum VendorIDSource { VENDOR_ID_UNKNOWN = 0; VENDOR_ID_BLUETOOTH = 1; VENDOR_ID_USB = 2; } optional VendorIDSource vendor_id_source = 8; // Vendor ID of the device, where available. optional uint32 vendor_id = 5; // Product ID of the device, where available. optional uint32 product_id = 6; // Device ID of the device, generally the release or version number in // BCD format, where available. optional uint32 device_id = 7; } repeated PairedDevice paired_device = 3; } optional Bluetooth bluetooth = 11; // Whether the internal display produces touch events. Omitted if unknown. // Logged on ChromeOS only. optional bool internal_display_supports_touch = 14; // Vendor ids and product ids of external touchscreens. message TouchScreen { // Touch screen vendor id. optional uint32 vendor_id = 1; // Touch screen product id. optional uint32 product_id = 2; } // Lists vendor and product ids of external touchscreens. // Logged on ChromeOS only. repeated TouchScreen external_touchscreen = 15; // Drive messages are currently logged on Windows 7+, iOS, and Android. message Drive { // Whether this drive incurs a time penalty when randomly accessed. This // should be true for spinning disks but false for SSDs or other // flash-based drives. optional bool has_seek_penalty = 1; } // The drive that the application executable was loaded from. optional Drive app_drive = 16; // The drive that the current user data directory was loaded from. optional Drive user_data_drive = 17; } optional Hardware hardware = 6; // Information about the network connection. message Network { // Set to true if connection_type changed during the lifetime of the log. optional bool connection_type_is_ambiguous = 1; // See net::NetworkChangeNotifier::ConnectionType. enum ConnectionType { CONNECTION_UNKNOWN = 0; CONNECTION_ETHERNET = 1; CONNECTION_WIFI = 2; CONNECTION_2G = 3; CONNECTION_3G = 4; CONNECTION_4G = 5; CONNECTION_BLUETOOTH = 6; } // The connection type according to NetworkChangeNotifier. optional ConnectionType connection_type = 2; // Set to true if wifi_phy_layer_protocol changed during the lifetime of the log. optional bool wifi_phy_layer_protocol_is_ambiguous = 3; // See net::WifiPHYLayerProtocol. enum WifiPHYLayerProtocol { WIFI_PHY_LAYER_PROTOCOL_NONE = 0; WIFI_PHY_LAYER_PROTOCOL_ANCIENT = 1; WIFI_PHY_LAYER_PROTOCOL_A = 2; WIFI_PHY_LAYER_PROTOCOL_B = 3; WIFI_PHY_LAYER_PROTOCOL_G = 4; WIFI_PHY_LAYER_PROTOCOL_N = 5; WIFI_PHY_LAYER_PROTOCOL_UNKNOWN = 6; } // The physical layer mode of the associated wifi access point, if any. optional WifiPHYLayerProtocol wifi_phy_layer_protocol = 4; // Describe wifi access point information. message WifiAccessPoint { // Vendor prefix of the access point's BSSID, these are OUIs // (Organizationally Unique Identifiers) registered by // the IEEE and are encoded with the first byte in bits 16-23, the // second byte in bits 8-15 and the third byte in bits 0-7. optional uint32 vendor_prefix = 1; // Access point seurity mode definitions. enum SecurityMode { SECURITY_UNKNOWN = 0; SECURITY_WPA = 1; SECURITY_WEP = 2; SECURITY_RSN = 3; SECURITY_802_1X = 4; SECURITY_PSK = 5; SECURITY_NONE = 6; } // The security mode of the access point. optional SecurityMode security_mode = 2; // Vendor specific information. message VendorInformation { // The model number, for example "0". optional string model_number = 1; // The model name (sometimes the same as the model_number), // for example "WZR-HP-AG300H". optional string model_name = 2; // The device name (sometimes the same as the model_number), // for example "Dummynet" optional string device_name = 3; // The list of vendor-specific OUIs (Organziationally Unqiue // Identifiers). These are provided by the vendor through WPS // (Wireless Provisioning Service) information elements, which // identifies the content of the element. repeated uint32 element_identifier = 4; } // The wireless access point vendor information. optional VendorInformation vendor_info = 3; } // Information of the wireless AP that device is connected to. optional WifiAccessPoint access_point_info = 5; } optional Network network = 13; // Information on the Google Update install that is managing this client. message GoogleUpdate { // Whether the Google Update install is system-level or user-level. optional bool is_system_install = 1; // The date at which Google Update last started performing an automatic // update check, in seconds since the Unix epoch. optional int64 last_automatic_start_timestamp = 2; // The date at which Google Update last successfully sent an update check // and recieved an intact response from the server, in seconds since the // Unix epoch. (The updates don't need to be successfully installed.) optional int64 last_update_check_timestamp = 3; // Describes a product being managed by Google Update. (This can also // describe Google Update itself.) message ProductInfo { // The current version of the product that is installed. optional string version = 1; // The date at which Google Update successfully updated this product, // stored in seconds since the Unix epoch. This is updated when an update // is successfully applied, or if the server reports that no update // is available. optional int64 last_update_success_timestamp = 2; // The result reported by the product updater on its last run. enum InstallResult { INSTALL_RESULT_SUCCESS = 0; INSTALL_RESULT_FAILED_CUSTOM_ERROR = 1; INSTALL_RESULT_FAILED_MSI_ERROR = 2; INSTALL_RESULT_FAILED_SYSTEM_ERROR = 3; INSTALL_RESULT_EXIT_CODE = 4; } optional InstallResult last_result = 3; // The error code reported by the product updater on its last run. This // will typically be a error code specific to the product installer. optional int32 last_error = 4; // The extra error code reported by the product updater on its last run. // This will typically be a Win32 error code. optional int32 last_extra_error = 5; } optional ProductInfo google_update_status = 4; optional ProductInfo client_status = 5; } optional GoogleUpdate google_update = 11; // Information on all installed plugins. message Plugin { // The plugin's self-reported name and filename (without path). optional string name = 1; optional string filename = 2; // The plugin's version. optional string version = 3; // True if the plugin is disabled. // If a client has multiple local Chrome user accounts, this is logged based // on the first user account launched during the current session. optional bool is_disabled = 4; // True if the plugin is PPAPI. optional bool is_pepper = 5; } repeated Plugin plugin = 7; // Figures that can be used to generate application stability metrics. // All values are counts of events since the last time that these // values were reported. // Next tag: 24 message Stability { // Total amount of time that the program was running, in seconds, // since the last time a log was recorded, as measured using a client-side // clock implemented via TimeTicks, which guarantees that it is monotonic // and does not jump if the user changes his/her clock. The TimeTicks // implementation also makes the clock not count time the computer is // suspended. optional int64 incremental_uptime_sec = 1; // Total amount of time that the program was running, in seconds, // since startup, as measured using a client-side clock implemented // via TimeTicks, which guarantees that it is monotonic and does not // jump if the user changes his/her clock. The TimeTicks implementation // also makes the clock not count time the computer is suspended. // This field was added for M-35. optional int64 uptime_sec = 23; // Page loads along with renderer crashes and hangs, since page load count // roughly corresponds to usage. optional int32 page_load_count = 2; optional int32 renderer_crash_count = 3; optional int32 renderer_hang_count = 4; // Number of renderer crashes that were for extensions. These crashes are // not counted in renderer_crash_count. optional int32 extension_renderer_crash_count = 5; // Number of non-renderer child process crashes. optional int32 child_process_crash_count = 6; // Number of times the browser has crashed while logged in as the "other // user" (guest) account. // Logged on ChromeOS only. optional int32 other_user_crash_count = 7; // Number of times the kernel has crashed. // Logged on ChromeOS only. optional int32 kernel_crash_count = 8; // Number of times the system has shut down uncleanly. // Logged on ChromeOS only. optional int32 unclean_system_shutdown_count = 9; // // All the remaining fields in the Stability are recorded at most once per // client session. // // The number of times the program was launched. // This will typically be equal to 1. However, it is possible that Chrome // was unable to upload stability metrics for previous launches (e.g. due to // crashing early during startup), and hence this value might be greater // than 1. optional int32 launch_count = 15; // The number of times that it didn't exit cleanly (which we assume to be // mostly crashes). optional int32 crash_count = 16; // The number of times the program began, but did not complete, the shutdown // process. (For example, this may occur when Windows is shutting down, and // it only gives the process a few seconds to clean up.) optional int32 incomplete_shutdown_count = 17; // The number of times the program was able register with breakpad crash // services. optional int32 breakpad_registration_success_count = 18; // The number of times the program failed to register with breakpad crash // services. If crash registration fails then when the program crashes no // crash report will be generated. optional int32 breakpad_registration_failure_count = 19; // The number of times the program has run under a debugger. This should // be an exceptional condition. Running under a debugger prevents crash // dumps from being generated. optional int32 debugger_present_count = 20; // The number of times the program has run without a debugger attached. // This should be most common scenario and should be very close to // |launch_count|. optional int32 debugger_not_present_count = 21; // Stability information for all installed plugins. message PluginStability { // The relevant plugin's information (name, etc.) optional Plugin plugin = 1; // The number of times this plugin's process was launched. optional int32 launch_count = 2; // The number of times this plugin was instantiated on a web page. // This will be >= |launch_count|. // (A page load with multiple sections drawn by this plugin will // increase this count multiple times.) optional int32 instance_count = 3; // The number of times this plugin process crashed. // This value will be <= |launch_count|. optional int32 crash_count = 4; // The number of times this plugin could not be loaded. optional int32 loading_error_count = 5; } repeated PluginStability plugin_stability = 22; } optional Stability stability = 8; // Description of a field trial or experiment that the user is currently // enrolled in. // All metrics reported in this upload can potentially be influenced by the // field trial. message FieldTrial { // The name of the field trial, as a 32-bit identifier. // Currently, the identifier is a hash of the field trial's name. optional fixed32 name_id = 1; // The user's group within the field trial, as a 32-bit identifier. // Currently, the identifier is a hash of the group's name. optional fixed32 group_id = 2; } repeated FieldTrial field_trial = 9; // Information about the A/V output device(s) (typically just a TV). // However, a configuration may have one or more intermediate A/V devices // between the source device and the TV (e.g. an A/V receiver, video // processor, etc.). message ExternalAudioVideoDevice { // The manufacturer name (possibly encoded as a 3-letter code, e.g. "YMH" // for Yamaha). optional string manufacturer_name = 1; // The model name (e.g. "RX-V1900"). Some devices may report generic names // like "receiver" or use the full manufacturer name (e.g "PHILIPS"). optional string model_name = 2; // The product code (e.g. "0218"). optional string product_code = 3; // The device types. A single device can have multiple types (e.g. a set-top // box could be both a tuner and a player). The same type may even be // repeated (e.g a device that reports two tuners). enum AVDeviceType { AV_DEVICE_TYPE_UNKNOWN = 0; AV_DEVICE_TYPE_TV = 1; AV_DEVICE_TYPE_RECORDER = 2; AV_DEVICE_TYPE_TUNER = 3; AV_DEVICE_TYPE_PLAYER = 4; AV_DEVICE_TYPE_AUDIO_SYSTEM = 5; } repeated AVDeviceType av_device_type = 4; // The year of manufacture. optional int32 manufacture_year = 5; // The week of manufacture. // Note: per the Wikipedia EDID article, numbering for this field may not // be consistent between manufacturers. optional int32 manufacture_week = 6; // Max horizontal resolution in pixels. optional int32 horizontal_resolution = 7; // Max vertical resolution in pixels. optional int32 vertical_resolution = 8; // Audio capabilities of the device. // Ref: http://en.wikipedia.org/wiki/Extended_display_identification_data message AudioDescription { // Audio format enum AudioFormat { AUDIO_FORMAT_UNKNOWN = 0; AUDIO_FORMAT_LPCM = 1; AUDIO_FORMAT_AC_3 = 2; AUDIO_FORMAT_MPEG1 = 3; AUDIO_FORMAT_MP3 = 4; AUDIO_FORMAT_MPEG2 = 5; AUDIO_FORMAT_AAC = 6; AUDIO_FORMAT_DTS = 7; AUDIO_FORMAT_ATRAC = 8; AUDIO_FORMAT_ONE_BIT = 9; AUDIO_FORMAT_DD_PLUS = 10; AUDIO_FORMAT_DTS_HD = 11; AUDIO_FORMAT_MLP_DOLBY_TRUEHD = 12; AUDIO_FORMAT_DST_AUDIO = 13; AUDIO_FORMAT_MICROSOFT_WMA_PRO = 14; } optional AudioFormat audio_format = 1; // Number of channels (e.g. 1, 2, 8, etc.). optional int32 num_channels = 2; // Supported sample frequencies in Hz (e.g. 32000, 44100, etc.). // Multiple frequencies may be specified. repeated int32 sample_frequency_hz = 3; // Maximum bit rate in bits/s. optional int32 max_bit_rate_per_second = 4; // Bit depth (e.g. 16, 20, 24, etc.). optional int32 bit_depth = 5; } repeated AudioDescription audio_description = 9; // The position in AV setup. // A value of 0 means this device is the TV. // A value of 1 means this device is directly connected to one of // the TV's inputs. // Values > 1 indicate there are 1 or more devices between this device // and the TV. optional int32 position_in_setup = 10; // Whether this device is in the path to the TV. optional bool is_in_path_to_tv = 11; // The CEC version the device supports. // CEC stands for Consumer Electronics Control, a part of the HDMI // specification. Not all HDMI devices support CEC. // Only devices that support CEC will report a value here. optional int32 cec_version = 12; // This message reports CEC commands seen by a device. // After each log is sent, this information is cleared and gathered again. // By collecting CEC status information by opcode we can determine // which CEC features can be supported. message CECCommand { // The CEC command opcode. CEC supports up to 256 opcodes. // We add only one CECCommand message per unique opcode. Only opcodes // seen by the device will be reported. The remainder of the message // accumulates status for this opcode (and device). optional int32 opcode = 1; // The total number of commands received from the external device. optional int32 num_received_direct = 2; // The number of commands received from the external device as part of a // broadcast message. optional int32 num_received_broadcast = 3; // The total number of commands sent to the external device. optional int32 num_sent_direct = 4; // The number of commands sent to the external device as part of a // broadcast message. optional int32 num_sent_broadcast = 5; // The number of aborted commands for unknown reasons. optional int32 num_aborted_unknown_reason = 6; // The number of aborted commands because of an unrecognized opcode. optional int32 num_aborted_unrecognized = 7; } repeated CECCommand cec_command = 13; } repeated ExternalAudioVideoDevice external_audio_video_device = 14; // Information about the current wireless access point. Collected directly // from the wireless access point via standard apis if the device is // connected to the Internet wirelessly. Introduced for Chrome on TV devices // but also can be collected by ChromeOS, Android or other clients. message ExternalAccessPoint { // The manufacturer name, for example "ASUSTeK Computer Inc.". optional string manufacturer = 1; // The model name, for example "Wi-Fi Protected Setup Router". optional string model_name = 2; // The model number, for example "RT-N16". optional string model_number = 3; // The device name (sometime same as model_number), for example "RT-N16". optional string device_name = 4; } optional ExternalAccessPoint external_access_point = 15; // Number of users currently signed into a multiprofile session. // A zero value indicates that the user count changed while the log is open. // Logged only on ChromeOS. optional uint32 multi_profile_user_count = 17; // Information about extensions that are installed, masked to provide better // privacy. Only extensions from a single profile are reported; this will // generally be the profile used when the browser is started. The profile // reported on will remain consistent at least until the browser is // relaunched (or the profile is deleted by the user). // // Each client first picks a value for client_key derived from its UMA // client_id: // client_key = client_id % 4096 // Then, each installed extension is mapped into a hash bucket according to // bucket = CityHash64(StringPrintf("%d:%s", // client_key, extension_id)) % 1024 // The client reports the set of hash buckets occupied by all installed // extensions. If multiple extensions map to the same bucket, that bucket is // still only reported once. repeated int32 occupied_extension_bucket = 18; // The state of loaded extensions for this system. The system can have either // no applicable extensions, extensions only from the webstore and verified by // the webstore, extensions only from the webstore but not verified, or // extensions not from the store. If there is a single off-store extension, // then HAS_OFFSTORE is reported. This should be kept in sync with the // corresponding enum in chrome/browser/metrics/extensions_metrics_provider.cc enum ExtensionsState { NO_EXTENSIONS = 0; NO_OFFSTORE_VERIFIED = 1; NO_OFFSTORE_UNVERIFIED = 2; HAS_OFFSTORE = 3; } optional ExtensionsState offstore_extensions_state = 19; }